Guim Ursul
@guim091.bsky.social
PhD at Museo Nacional de Ciencias Naturales (MNCN-CSIC) studying how climate change affects distributions of Iberian mountain butterflies | Dpt. of Biogeography and Global Change
Dryad dataset: Local climatic effects on colonisation and extinction drive changes in mountain butterfly communities datadryad.org/dataset/doi:...
Dryad | Data -- Local climatic effects on colonisation and extinction drive changes in mountain butterfly communities
datadryad.org
July 5, 2025 at 9:09 AM
Dryad dataset: Local climatic effects on colonisation and extinction drive changes in mountain butterfly communities datadryad.org/dataset/doi:...
January 20, 2025 at 11:38 AM
Reposted by Guim Ursul
La historia de las hormigas invasoras que cambian ecosistemas completos también me parece una de las mejores del año
De cómo una pequeña hormiga invasora cambió el paisaje y la dieta de los leones en una reserva de Kenia
Un equipo de investigadores documenta la cascada de cambios desencadenada por la irrupción de un grupo de hormigas en una zona de la sabana, que ha dado un giro a la vida de elefantes, cebras y búfalo...
www.eldiario.es
December 31, 2024 at 8:57 AM
La historia de las hormigas invasoras que cambian ecosistemas completos también me parece una de las mejores del año
Thanks to all co-authors and collaborators! @robwilsonmncn.bsky.social @jpcancela.bsky.social Sara Castro-Cobo, Mario Mingarro and Helena Romo @mncn-csic.bsky.social
Check the paper here: onlinelibrary.wiley.com/doi/10.1111/...
Check the paper here: onlinelibrary.wiley.com/doi/10.1111/...
Local Climatic Effects on Colonisation and Extinction Drive Changes in Mountain Butterfly Communities
Aim The capacity of cool refugia to protect cold-adapted species against climate change may depend on both their initial climatic conditions and how quickly these change. We test how local climatic ...
onlinelibrary.wiley.com
January 16, 2025 at 10:33 AM
Thanks to all co-authors and collaborators! @robwilsonmncn.bsky.social @jpcancela.bsky.social Sara Castro-Cobo, Mario Mingarro and Helena Romo @mncn-csic.bsky.social
Check the paper here: onlinelibrary.wiley.com/doi/10.1111/...
Check the paper here: onlinelibrary.wiley.com/doi/10.1111/...
So, mountain butterfly communities in central Spain became more dominated by species with warm thermal affinities and broader thermal niches. To adapt conservation to climate change, a regional perspective is needed to provide a wide range of local climates and rates of change.
January 16, 2025 at 10:33 AM
So, mountain butterfly communities in central Spain became more dominated by species with warm thermal affinities and broader thermal niches. To adapt conservation to climate change, a regional perspective is needed to provide a wide range of local climates and rates of change.
Has CTI changed equally across the mountain regions and study sites? No, communities occupying sites with cold conditions historically increased their CTI most, especially in Sierra de Gredos and Javalambre. Community changes differed between the four regions.
January 16, 2025 at 10:33 AM
Has CTI changed equally across the mountain regions and study sites? No, communities occupying sites with cold conditions historically increased their CTI most, especially in Sierra de Gredos and Javalambre. Community changes differed between the four regions.
We also found that species tolerating a wider range of temperatures across their range (thermal niche breadth) increased the number of sites they occupied, especially if they preferred warm conditions. Species with narrow thermal preferences or cold affinities decreased most.
January 16, 2025 at 10:33 AM
We also found that species tolerating a wider range of temperatures across their range (thermal niche breadth) increased the number of sites they occupied, especially if they preferred warm conditions. Species with narrow thermal preferences or cold affinities decreased most.
Comparing thermal affinities for colonising versus extinct species across sites confirmed that species favouring warm conditions were colonising, and species preferring cool conditions were experiencing local extinctions. As a result, CTI increased.
January 16, 2025 at 10:33 AM
Comparing thermal affinities for colonising versus extinct species across sites confirmed that species favouring warm conditions were colonising, and species preferring cool conditions were experiencing local extinctions. As a result, CTI increased.
We deduced that colonisation and extinction took place at similar rates, as species richness and average variation in thermal affinities per site did not change. If colonisations were more important we expected both values to rise, if extinctions were more important we expected both to decline.
January 16, 2025 at 10:33 AM
We deduced that colonisation and extinction took place at similar rates, as species richness and average variation in thermal affinities per site did not change. If colonisations were more important we expected both values to rise, if extinctions were more important we expected both to decline.
We found CTI to be greater in hotter sites in both periods. CTI also increased in many sites over time – known as community thermophilisation. But this could result from colonisations by species favouring hot conditions, or extinctions of species that do not tolerate warming.
January 16, 2025 at 10:33 AM
We found CTI to be greater in hotter sites in both periods. CTI also increased in many sites over time – known as community thermophilisation. But this could result from colonisations by species favouring hot conditions, or extinctions of species that do not tolerate warming.
The geographic ranges of species reflect their climatic tolerance or “thermal affinity”. To summarise this for butterfly species in each community we used the average temperature across their Iberian Peninsula distributions – known as the Community Temperature Index or CTI. More info about it ⬇️
Butterfly communities track climatic variation over space but not time in the Iberian Peninsula
We tested indices of community environmental associations based on occurrence records to infer how butterflies responded to climatic and land cover changes in the Iberian Peninsula from 1901 ...
resjournals.onlinelibrary.wiley.com
January 16, 2025 at 10:33 AM
The geographic ranges of species reflect their climatic tolerance or “thermal affinity”. To summarise this for butterfly species in each community we used the average temperature across their Iberian Peninsula distributions – known as the Community Temperature Index or CTI. More info about it ⬇️
We revisited 74 field sites where we were lucky to have butterfly data from historical surveys. To estimate changes to the climates that butterflies experienced near the ground we used the mechanistic Microclima model. besjournals.onlinelibrary.wiley.com/doi/full/10....
January 16, 2025 at 10:33 AM
We revisited 74 field sites where we were lucky to have butterfly data from historical surveys. To estimate changes to the climates that butterflies experienced near the ground we used the mechanistic Microclima model. besjournals.onlinelibrary.wiley.com/doi/full/10....
How does the ability of localized refugia to protect species against global warming depend on their climatic conditions? To find out, we looked at changes to butterfly communities in four mountain ranges in central Spain between 1984-2005 and 2017-2022.
📷 Parnassius apollo (Sara Castro-Cobo)
📷 Parnassius apollo (Sara Castro-Cobo)
January 16, 2025 at 10:33 AM
How does the ability of localized refugia to protect species against global warming depend on their climatic conditions? To find out, we looked at changes to butterfly communities in four mountain ranges in central Spain between 1984-2005 and 2017-2022.
📷 Parnassius apollo (Sara Castro-Cobo)
📷 Parnassius apollo (Sara Castro-Cobo)